UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genomic DNA from 51 primary human brain tumors was screened for the presence of mutations in the tumor suppressor gene, p53, using the polymerase chain reaction and single strand conformation polymorphism analysis, followed by direct DNA sequencing. Mutations leading to an amino acid change were found in 2 of 17 (12%) oligodendrogliomas and 2 of 19 (11%) medulloblastomas but none of 15 ependymomas. Sites of mutations were in exon 5 (codon 141), exon 6 (codon 193 and 213), and exon 7 (codon 246). In addition, there were silent mutations in exon 6 (codon 213) in one oligodendroglioma and in one ependymoma. This study points to the possible role of the p53 tumor suppressor gene in some central nervous system neoplasms of divergent histogenesis.
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PMID:p53 mutations in nonastrocytic human brain tumors. 193 79

Data are presented on p53 protein presence in human oligodendrogliomas whose progress from low grade to anaplastic oligodendroglioma can be followed. Expression was evaluated by formalin-fixed paraffin-embedded section immunohistochemistry, using monoclonal PAb 1801 antibody. The frequency of p53 protein accumulation is related to the stage of tumor malignancy. All the samples (100%) of malignant oligodendrogliomas were positive for p53 protein. Of 14 type II oligodendroglioma samples, 9 were positive (64%) while among type I oligodendroglioma the positivity was 28%. The mean proportion of reactive cells was also higher in malignant oligodendrogliomas. However, mean intensity staining did not differ among various grades of tumors. Our results point to the direct link between p53 protein accumulation and the malignant stage of human oligodendrogliomas. However, the value of p53 protein accumulation in predicting malignant behavior of oligodendrogliomas requires further confirmation.
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PMID:p53 immunoreactivity in oligodendrogliomas. 771 46

A case of familial polymorphous oligodendroglioma, occurring in a brother and sister, is presented. Polymorphous oligodendrogliomas have a characteristic histopathology consisting of scattered multinucleated giant cells against a typical oligodendroglial background. The oligodendroglial character of the tumors was underlined by positive immunostaining for antigalactocerebroside, anticarbonic anhydrase, and anti-leu-7, without expression of glial fibrillary acidic protein. Both tumors were immunopositive for p53, suggesting a mutation in the p53 gene. No incidence of cancer was recorded in the family. This is the first report of familial occurrence of this particular subtype of oligodendroglioma.
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PMID:Familial occurrence of polymorphous oligodendroglioma. 800 75

Formalin-fixed, paraffin-embedded surgical specimens from 137 primary central nervous system tumors, including 26 astrocytomas (21 fibrillary, 1 protoplasmic, 1 gemistocytic and 3 pilocytic), 26 anaplastic astrocytomas, 9 glioblastomas, 1 gliosarcoma, 8 oligodendrogliomas, 4 ependymomas, 1 anaplastic ependymoma, 2 subependymomas, 3 paragangliomas, and 57 meningiomas, were immunostained with the CM1 polyclonal (pAb) and the DO-7 monoclonal (mAb) antibodies against the p53 protein, using the streptavidin/peroxidase method. In addition, two series of 17 and 9 medulloblastomas were also immunostained with the above pAb and mAb, respectively. p53 protein expression was observed in 7 fibrillary astrocytomas, 17 anaplastic astrocytomas, 5 glioblastomas, 1 gliosarcoma, 1 oligodendroglioma, 1 anaplastic ependymoma, and 4 meningiomas with the CM1 pAb. An additional 10 cases (i.e., 3 anaplastic astrocytomas and 7 meningiomas) were found to be p53 protein positive with the DO-7 mAb. Of the medulloblastomas, 8 (of the 17) and 4 (of the 9) were found to express p53 protein with CM1 pAb and DO-7 mAb, respectively. Our results indicate that p53 protein is expressed in a number of central nervous system neoplasms, and suggest that in astrocytic tumors a possible association may exist between p53 protein expression and tumor progression through increasing histological grades of malignancy.
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PMID:p53 protein expression in central nervous system tumors: an immunohistochemical study with CM1 polyvalent and DO-7 monoclonal antibodies. 833 39

A variety of neoplasms of the human nervous system were analyzed for the presence of mutations in the p53 tumor suppressor gene. DNA was extracted from frozen or formalin-fixed, paraffin-embedded material. Single-strand conformation polymorphism (SSCP) analysis for exons 5-8 was followed by direct DNA sequencing. Mutations leading to an amino acid change were found in three of 11 (27%) low-grade (World Health Organization (WHO) Grade II) astrocytomas. They were located in codon 183 (TCA-->TGA) of exon 5, codon 237 (ATG-->ATA) of exon 7, and codon 273 (CGT-->CAT) of exon 8. In one of these cases, the sequence indicated loss of the wild-type allele. Of 12 juvenile pilocytic astrocytomas (WHO Grade I), none contained a p53 mutation, suggesting a different molecular basis for this childhood neoplasm. Except for a mutation in one of seven (14%) meningeal hemangiopericytomas (codon 238; TGT-->TTT, Cys-->Phe), no mutations were observed in exons 5-8 of the p53 gene in any of the following tumors of the nervous system and its coverings: 13 schwannomas, 12 central neurocytomas, 22 meningiomas, 10 choroid plexus papillomas and carcinomas, and 30 neuroblastomas of the sympathetic nervous system. These and published data support the view that p53 mutations are frequently involved both in low-grade and progressive (anaplastic) astrocytomas, including glioblastomas multiforme. Oligodendrogliomas, medulloblastomas, meningiomas, and hemangiopericytomas rarely (< 15%) show p53 mutations in exons 5-8, whereas none of the remaining nervous system neoplasms revealed evidence of an involvement of the p53 gene in their development.
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PMID:Mutations of the p53 tumor suppressor gene in neoplasms of the human nervous system. 839 97

We describe molecular and clinical findings in an immunocompetent patient with an oligoastrocytoma and the concomitant presence of the human papovavirus, JC virus (JCV), which is the etiologic agent of the subacute, debilitating demyelinating disease, progressive multifocal leukoencephalopathy. Histologic review revealed a glial neoplasm consisting primarily of a moderately cellular oligodendroglioma with distinct areas of a fibrillary astrocytoma. Immunohistochemical analysis revealed nuclear staining of tumor cells with antibodies against the viral oncoprotein [tumor antigen (T antigen)], the proliferation marker (Ki67), and the cellular proliferation regulator (p53). Using primers specific to the JCV control region, PCR yielded amplified DNA that was identical to the control region of the Mad-4 strain of the virus. PCR analysis demonstrated the presence of the genome for the viral oncoprotein, T antigen, and results from primer extension studies revealed synthesis of the viral early RNA for T antigen in the tumor tissues. The presence of viral T antigen in the tumor tissue was further demonstrated by immunoblot assay. To our knowledge, this is the first report of the presence of JCV DNA, RNA, and T antigen in tissue in which viral T antigen is localized to tumor cell nuclei and suggests the possible association of JCV with some glial neoplasms.
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PMID:Detection of JC virus DNA sequence and expression of the viral oncoprotein, tumor antigen, in brain of immunocompetent patient with oligoastrocytoma. 869 97

Tumor growth depends on cell division and cell death. To investigate the role of apoptosis in tumor cell death, we examined 83 cases of glial tumors using in situ nonradioactive tailing of DNA breaks. In addition, since p53 protein may participate in the regulation of apoptosis in glioblastoma, we compared the apoptosis ratio (AR) with the labeling index (LI) of p53 protein immunopositivity. The AR in glial tumor parenchyma ranged from 0 to 1.4%: mean AR +/- standard deviation was 0.4 +/- 0.4% (range, 0-1.4) for glioblastoma, 0.3 +/- 0.3% (range, 0.01-0.83) for anaplastic astrocytoma, 0.1 +/- 0.1% (range, 0-0.41) for low-grade astrocytoma, 0.006 +/- 0.008% (range, 0-0.02) for pilocytic astrocytoma, 0.2 +/- 0.2% (range, 0-0.62) for oligodendroglioma and 0.003 +/- 0.004% (range, 0-0.01) for ependymoma. ARs were significantly higher in higher-grade astrocytic tumors than in lower-grade tumors (Mann-Whitney U test: P = 0.0003), although wide variability in each group resulted in overlapping between the groups. p53 protein immunopositivity (more than 25% of nuclei) was found in 15 of 32 glioblastoma cases, while in the remaining 17 none or only a low percentage (up to 6%) of the nuclei were positive. In p53 protein-positive cases mean AR (0.51 +/- 0.47%) was not significantly higher than that in p53 protein-negative cases (0.22 +/- 0.23%; P = 0.1681).
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PMID:Apoptosis in glial tumors as determined by in situ nonradioactive labeling of DNA breaks. 877 55

Genomic alterations associated with glioma progression were determined by comparative genomic hybridization (CGH) 30 tumors from 15 patients with primary gliomas of World Health Organization (WHO) grade II that on recurrence showed progression to malignant gliomas of WHO grades III or IV (five cases of astrocytoma grade II (A II) to grade III (AA III), five cases of A II to glioblastoma multiforme grade IV (GBM) and five cases of oligodendroglioma grade II (O II) to grade III (AO III)). All tumors were additionally screened for p53 mutations by single strand conformational polymorphism and heteroduplex analysis of exons 5-8, followed by direct sequencing. Mutations of p53 were found in the primary and recurrent tumors of all cases of A II progressing to GBM and three of five cases of A II recurring as AA III. Alterations identified by CGH in more than one primary A II included losses on Xp (3/10) and 5p (2/10), gains on 8q and 19p (2/10 each), and gain/amplification on 12p (2/10). Common progression associated changes found in AA III or GBM were losses on 4q, 9p, 10q, 11p, 13q (4/10 each) and gains on 1q, 6p, 20q (2/10 each). The most frequent amplification site was located on 12p13 (1/10 A II, 3/5 AA III, 1/5 GBM). Other amplified chromosomal regions were 13q32-q34 (1/10 AII, 2/5 GBM), 7q31-qter (1/5 AA III, 1/5 GBM), 12q22-qter and 18p (1/5 AA III). In contrast to the astrocytic gliomas, only one of five oligodendroglial cases showed a p53 mutation. Genetic abnormalities identified by CGH to occur more than once were restricted to four chromosomes (1, 4, 9 and 19). Our results provide a comprehensive overview of the genomic alterations associated with the progression of individual gliomas and substantiate the hypothesis that glioma progression is associated with a cumulative acquisition of multiple genetic changes.
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PMID:Characterization of genomic alterations associated with glioma progression by comparative genomic hybridization. 880 88

Using the methods of restriction fragment length polymorphism (RFLP) and single strand conformation polymorphism (SSCP) analyses, we have examined 33 cases of human gliomas with various malignant grades to detect the deletions of putative tumor suppressor gene loci, chromosome 10, 13q(retinoblastoma gene, Rb), 17p, and p53 mutation. We observed loss of heterozygosity (LOH) at loci on chromosome 10 (36%), 13q(Rb) (54%), and 17p(50%) in malignant gliomas. There, however was no allelic loss on chromosome 10 and 17p in low-grade gliomas. Rb gene deletions were seen in low-grade gliomas, including oligodendroglioma and ependymoma. This finding suggests that Rb inactivation may be an early genetic event in the development and progression of gliomas. We correlated the results of LOH on chromosome 17p and p53 mutation. Among the 8 cases which showed LOH on chromosome 17p, only three cases (38%) revealed p53 mutations. Low incidence of p53 mutations in cases with chromosome 17p deletions suggests that some other tumor suppressor genes may be located on chromosome 17p.
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PMID:Loss of heterozygosity on chromosome 10, 13q(Rb), 17p, and p53 gene mutations in human brain gliomas. 892 30

Histopathology and immunohistochemistry continue to be popular methods for predicting outcome in patients with malignant gliomas. This past year traditional histopathologic studies have stressed the importance of endothelial proliferation in the diagnosis of glioblastoma multiforme. Immunohistochemical proliferation markers, in particular MIB-1, may be useful in assessing oligodendroglioma behavior, whereas their role in malignant astrocytomas is less clear. Similarly, new studies on p53 and epidermal growth factor receptor immunohistochemistry in gliomas have demonstrated only limited predictive values.
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PMID:Histopathologic and immunohistochemical prognostic factors in malignant gliomas. 922 44

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